Equivalent Circuit Model of Long Primary Permanent Magnet Linear Synchronous Motor Considering End Effect

The winding segmented permanent magnet linear synchronous motor (WS-PMLSM) has not only a general slotting effect but also a unique two-end effect caused by the segmented stator and the finite length passive mover, which makes the detent force of WS-PMLSM possess the qualities of all types of linear motors. This paper adopts a physics-based multiple analytical method to study the detent force properties. First, an accurate sub-domain model is used to obtain the magnetic field distribution of the tooth slot, and the results of the analytical solution and the graph of the tooth slot effect are obtained using the scalar magnetic potential. Subsequently, the effect of the end unenergized core on the magnetic field is analyzed using Maxwell’s theory for the stator end effect, revealing that the end effect causes pulsating and reversing magnetic fields in the motor, which in turn creates mutual inductance with unequal phases, and generates thrust fluctuations. Finally, a complex relative air-gap permeability is introduced on the basis of the conformal mapping to equate the end effect generated by the permanent magnet. The accuracy of the proposed multiple analytical models was verified by the results of the finite element method (FEM) and experimental model.

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Equivalent Circuit Model of Long Primary Permanent Magnet Linear Synchronous Motor Considering End Effect

Cited by 3 publications

References 6 publications

Reduction on Longitudinal End Effect of High-Speed-Maglev DC-Excited Linear Synchronous Motors

Reduction on Longitudinal End Effect of High-Speed-Maglev DC-Excited Linear Synchronous Motors

Simplified Piecewise Model of Line-Start Permanent Magnet Linear Synchronous Motors

Research on Detent Force Characteristics of Winding Segmented Permanent Magnet Linear Synchronous Motor Based on Analytical Model

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